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// Copyright 2023 The Dawn & Tint Authors
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#ifndef SRC_TINT_UTILS_BYTES_DECODER_H_
#define SRC_TINT_UTILS_BYTES_DECODER_H_
#include <bitset>
#include <climits>
#include <optional>
#include <string>
#include <tuple>
#include <unordered_map>
#include <utility>
#include <vector>
#include "src/tint/utils/bytes/reader.h"
#include "src/tint/utils/reflection/reflection.h"
namespace tint::bytes {
template <typename T, typename = void>
struct Decoder;
/// Decodes T from @p reader.
/// @param reader the byte reader
/// @param args additional arguments used by Decoder<T>::Decode()
/// @returns the decoded object
template <typename T, typename... ARGS>
Result<T> Decode(Reader& reader, ARGS&&... args) {
return Decoder<T>::Decode(reader, std::forward<ARGS>(args)...);
}
/// Decoder specialization for integer types
template <typename T>
struct Decoder<T, std::enable_if_t<std::is_integral_v<T>>> {
/// Decode decodes the integer type from @p reader.
/// @param reader the reader to decode from
/// @param endianness the endianness of the integer
/// @returns the decoded integer type, or an error if the stream is too short.
static Result<T> Decode(Reader& reader, Endianness endianness = Endianness::kLittle) {
return reader.Int<T>(endianness);
}
};
/// Decoder specialization for floating point types
template <typename T>
struct Decoder<T, std::enable_if_t<std::is_floating_point_v<T>>> {
/// Decode decodes the floating point type from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded floating point type, or an error if the stream is too short.
static Result<T> Decode(Reader& reader) { return reader.Float<T>(); }
};
/// Decoder specialization for a uint16_t length prefixed string.
template <>
struct Decoder<std::string, void> {
/// Decode decodes the string from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded string, or an error if the stream is too short.
static Result<std::string> Decode(Reader& reader) {
auto len = reader.Int<uint16_t>();
if (len != Success) {
return len.Failure();
}
return reader.String(len.Get());
}
};
/// Decoder specialization for bool types
template <>
struct Decoder<bool, void> {
/// Decode decodes the boolean from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded boolean, or an error if the stream is too short.
static Result<bool> Decode(Reader& reader) { return reader.Bool(); }
};
/// Decoder specialization for types that use TINT_REFLECT
template <typename T>
struct Decoder<T, std::enable_if_t<HasReflection<T>>> {
/// Decode decodes the reflected type from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded reflected type, or an error if the stream is too short.
static Result<T> Decode(Reader& reader) {
T object{};
diag::List errs;
ForeachField(object, [&](auto& field) { //
auto value = bytes::Decode<std::decay_t<decltype(field)>>(reader);
if (value == Success) {
field = value.Get();
} else {
errs.Add(value.Failure().reason);
}
});
if (errs.empty()) {
return object;
}
return Failure{errs};
}
};
/// Decoder specialization for std::unordered_map
template <typename K, typename V>
struct Decoder<std::unordered_map<K, V>, void> {
/// Decode decodes the map from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded map, or an error if the stream is too short.
static Result<std::unordered_map<K, V>> Decode(Reader& reader) {
std::unordered_map<K, V> out;
while (true) {
auto stop = bytes::Decode<bool>(reader);
if (stop != Success) {
return stop.Failure();
}
if (stop.Get()) {
break;
}
auto key = bytes::Decode<K>(reader);
if (key != Success) {
return key.Failure();
}
auto val = bytes::Decode<V>(reader);
if (val != Success) {
return val.Failure();
}
out.emplace(std::move(key.Get()), std::move(val.Get()));
}
return out;
}
};
/// Decoder specialization for std::vector
template <typename V>
struct Decoder<std::vector<V>, void> {
/// Decode decodes the vector from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded vector, or an error if the stream is too short.
static Result<std::vector<V>> Decode(Reader& reader) {
std::vector<V> out;
while (true) {
auto stop = bytes::Decode<bool>(reader);
if (stop != Success) {
return stop.Failure();
}
if (stop.Get()) {
break;
}
auto val = bytes::Decode<V>(reader);
if (val != Success) {
return val.Failure();
}
out.emplace_back(std::move(val.Get()));
}
return out;
}
};
/// Decoder specialization for std::optional
template <typename T>
struct Decoder<std::optional<T>, void> {
/// Decode decodes the optional from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded optional, or an error if the stream is too short.
static Result<std::optional<T>> Decode(Reader& reader) {
auto has_value = bytes::Decode<bool>(reader);
if (has_value != Success) {
return has_value.Failure();
}
if (!has_value.Get()) {
return std::optional<T>{std::nullopt};
}
auto value = bytes::Decode<T>(reader);
if (value != Success) {
return value.Failure();
}
return std::optional<T>{value.Get()};
}
};
/// Decoder specialization for std::bitset
template <std::size_t N>
struct Decoder<std::bitset<N>, void> {
/// Decode decodes the bitset from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded bitset, or an error if the stream is too short.
static Result<std::bitset<N>> Decode(Reader& reader) {
Vector<std::byte, 32> vec;
vec.Resize((N + CHAR_BIT - 1) / CHAR_BIT);
if (auto len = reader.Read(&vec[0], vec.Length()); len != vec.Length()) {
return Failure{"EOF"};
}
std::bitset<N> out;
for (std::size_t i = 0; i < N; i++) {
std::size_t w = i / CHAR_BIT;
std::size_t b = i - (w * CHAR_BIT);
out[i] = ((vec[w] >> b) & std::byte{1}) != std::byte{0};
}
return out;
}
};
/// Decoder specialization for std::tuple
template <typename FIRST, typename... OTHERS>
struct Decoder<std::tuple<FIRST, OTHERS...>, void> {
/// Decode decodes the tuple from @p reader.
/// @param reader the reader to decode from
/// @returns the decoded tuple, or an error if the stream is too short.
static Result<std::tuple<FIRST, OTHERS...>> Decode(Reader& reader) {
auto first = bytes::Decode<FIRST>(reader);
if (first != Success) {
return first.Failure();
}
if constexpr (sizeof...(OTHERS) > 0) {
auto others = bytes::Decode<std::tuple<OTHERS...>>(reader);
if (others != Success) {
return others.Failure();
}
return std::tuple_cat(std::tuple<FIRST>(first.Get()), others.Get());
} else {
return std::tuple<FIRST>(first.Get());
}
}
};
/// Decoder specialization for enum types that have a range defined with TINT_REFLECT_ENUM_RANGE
template <typename T>
struct Decoder<T, std::void_t<decltype(tint::EnumRange<T>::kMax)>> {
/// Decode decodes the enum type from @p reader.
/// @param reader the reader to decode from
/// @param endianness the endianness of the enum
/// @returns the decoded enum type, or an error if the stream is too short.
static Result<T> Decode(Reader& reader, Endianness endianness = Endianness::kLittle) {
using Range = tint::EnumRange<T>;
using U = std::underlying_type_t<T>;
auto value = reader.Int<U>(endianness);
if (value != Success) {
return value.Failure();
}
static constexpr U kMin = static_cast<U>(Range::kMin);
static constexpr U kMax = static_cast<U>(Range::kMax);
if (value.Get() < kMin || value.Get() > kMax) {
return Failure{"value " + std::to_string(value.Get()) + " out of range for enum"};
}
return static_cast<T>(value.Get());
}
};
} // namespace tint::bytes
#endif // SRC_TINT_UTILS_BYTES_DECODER_H_